Position measuring device and method for operating a position measuring device

What is claimed is: 1. A position measuring device, comprising: a graduation carrier including a measuring graduation; a scanning unit, the graduation carrier and the scanning unit being movable in a measuring direction relative to each other, the scanning unit adapted to generate position-dependent scanning signals by scanning the measuring graduation; a signal processing unit adapted to process the scanning signals into positional signals; a signal interface adapted to output the positional signals to subsequent electronics; at least one correction unit provided in the signal processing unit adapted to correct at least one signal error of at least one scanning signal; and a monitoring unit adapted to detect the signal error reaching a first limit value and to subsequently deactivate a corresponding correction unit. 2. The position measuring device according to claim 1 , wherein the monitoring unit is adapted to deactivate the corresponding correction unit by switching off the corresponding correction unit, so that the scanning signal is output as the positional signal. 3. The position measuring device according to claim 1 , wherein the monitoring unit is adapted to deactivate the correction unit by overriding a correction function and storing instantaneous control parameters. 4. The position measuring device according to claim 1 , wherein the correction unit includes an offset correction unit, an amplitude correction unit, and/or a phase correction unit. 5. The position measuring device according to claim 1 , wherein the monitoring unit is adapted to reactivate at least the corresponding correction unit when a second limit value has been reached, to maintain an amplitude of the positional signal at a setpoint. 6. A method for operating a position measuring device, including a graduation carrier, having a measuring graduation, and including a scanning unit, the graduation carrier and the scanning unit being movable in a measuring direction relative to each other, comprising: generating position-dependent scanning signals by the scanning unit scanning the measuring graduation; processing, in a signal processing unit, the scanning signals into positional signals; outputting the positional signals to subsequent electronics by a signal interface; correcting at least one signal error of at least one scanning signal by at least one correction unit provided in the signal processing unit; determining, by a monitoring unit, whether a limit value of the signal error is reached; and subsequent to the determining, deactivating, by the monitoring unit, the correction unit corresponding to the signal error that reaches the limit value. 7. The method according to claim 6 , wherein the monitoring unit deactivates the correction unit by switching off the correction unit, so that the scanning signal is output as the positional signal. 8. The method according to claim 6 , wherein the monitoring unit deactivates the correction unit by overriding a correction function and by storing instantaneous control parameters. 9. The method according to claim 6 , further comprising reactivating the deactivated correction unit by switching the position measuring device off and on. 10. The method according to claim 6 , wherein when a second limit value is reached, the monitoring unit reactivates the deactivating correction unit, to maintain an amplitude of the positional signal at a setpoint. 11. A signal transmission system, comprising: the position measuring device recited in claim 1 ; subsequent electronics connected to the position measuring device; and a receiver-side monitoring unit connected to the subsequent electronics adapted to detect at least one positional signal reaching a limit value.